Polymer-grafted materials as surface-engineered adsorbents for water purification

Q3 Materials Science JCIS open Pub Date : 2024-08-08 DOI:10.1016/j.jciso.2024.100122

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Abstract

This review aims to explore recent advancements in polymer-grafted materials that have emerged as effective adsorbents for the removal of contaminants from wastewater. The most significant environmental issues affecting public health are the presence of dyes, heavy metals, and metalloids in wastewater discharged by various industries. Unfortunately, traditional techniques for treating wastewater are incapable of removing dyes and heavy metals. Due to enhanced capabilities, larger surface areas, greater stability, adjustable properties, and cost-effectiveness, polymer-grafted nanomaterials (PGNs) have attracted the attention of researchers for water purification. Surface engineering of materials with the use of polymers improves greatly their colloidal stability and pollutant adsorption capacity. This study investigates different parameters such as adsorption capacity, pH, and duration in recently reported papers where polymer-grafted adsorbents are developed. The review concludes by offering an overview of recent advancements in the field and proposing potential avenues for future research on related topics.

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聚合物接枝材料作为用于水净化的表面工程吸附剂

本综述旨在探讨聚合物接枝材料的最新进展，这些材料已成为去除废水中污染物的有效吸附剂。影响公众健康的最重要环境问题是各行各业排放的废水中存在染料、重金属和类金属。遗憾的是，传统的废水处理技术无法去除染料和重金属。聚合物接枝纳米材料（PGNs）具有更强的能力、更大的表面积、更高的稳定性、可调节的特性和成本效益，因此在水净化方面吸引了研究人员的关注。利用聚合物对材料进行表面工程处理可大大提高其胶体稳定性和污染物吸附能力。本研究调查了最近报道的开发聚合物接枝吸附剂的论文中的不同参数，如吸附容量、pH 值和持续时间。综述最后概述了该领域的最新进展，并提出了未来相关主题研究的潜在途径。

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